Life cycle assessment of hydrometallurgical recycling for cathode active materials

As battery usage keeps growing due to a boom in the electric vehicles market, battery recycling has become a crucial issue. Cathode active material is the most valuable component of the battery and attracts researchers' attention. Much research has been focused on finding the optimal condition of a certain hydrometallurgical recycling process for cathode active material. However, there is no comprehensive comparison between different hydrometallurgical recycling processes. In this research, life cycle assessment is adopted to evaluate the envi-ronmental concerns, which is a major reason for using batteries and recycling batteries, of different hydro-metallurgical recycling processes for three widely used cathode active materials: NMC, LFP, and LCO. The environmental impact of each process is assessed based on the ReCiPe method using standardized processes and unified reactors. As a result, the most effective hydrometallurgical recycling processes for NMC, LFP, and LCO have been found. Moreover, the most effective recycling processes lower the environmental impact by over 50% compared to the average of those evaluated. Also, the ultimate comparison between different cathode active materials shows that LFP recycling has a lower environmental impact than NMC and LCO, considering specific capacity and lifespan.